Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise

Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise

Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise

The dataset the results of a detailed experimental investigation into the effectiveness of sinusoidal leading edge serrations on aerofoils for the reduction of the noise generated by the interaction with turbulent flow.The data underpins the paper P. Chaitanya?, P. Joseph, S. Narayanan?, C. Vanderwel, J. Turner, J. W. Kim, and B. Ganapathisubramani (2017), 'Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise', accepted in the Journal of Fluid Mechanics.

Abstract

The dataset the results of a detailed experimental investigation into the effectiveness of sinusoidal leading edge serrations on aerofoils for the reduction of the noise generated by the interaction with turbulent flow.The data underpins the paper P. Chaitanya?, P. Joseph, S. Narayanan?, C. Vanderwel, J. Turner, J. W. Kim, and B. Ganapathisubramani (2017), 'Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise', accepted in the Journal of Fluid Mechanics.